Chapter 14 / 14.8
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14.8 REVISION QUESTIONS
- Briefly describe the function of each of the layers of the ISO OSI 7-layer model.
- Explain the purpose of layered reference models and the concept of encapsulation.
- Compare the OSI and TCP/IP models. How do their layers correspond?
- Why do IEEE 802 standards primarily map to the lower two OSI layers?
- Explain why Ethernet originally required CSMA/CD and why it is no longer used in modern deployments.
- Why does Ethernet retain a 64-octet minimum frame size?
- Describe the function of the MAC address in Ethernet.
- What is the purpose of the Frame Check Sequence (FCS)?
- Why does Ethernet rely on higher-layer protocols for retransmission?
- Explain how MAC learning works in an Ethernet switch.
- Distinguish clearly between a collision domain and a broadcast domain.
- Why are collision domains effectively eliminated in full-duplex switched Ethernet?
- Explain how VLANs logically segment a network.
- Why are Layer-2 loops problematic, and how does Spanning Tree prevent instability?
- Compare hierarchical three-tier campus architecture with spine–leaf data center architecture.
- Distinguish between physical topology and logical topology.
- Compare twisted-pair copper and fiber-optic Ethernet in terms of deployment trade-offs.
- Why do higher-speed copper Ethernet standards require advanced signal processing techniques?
- Explain how Power over Ethernet (PoE) changes network deployment models.
- Explain why CSMA/CA is required in WLANs instead of CSMA/CD.
- Describe the operation of the Distributed Coordination Function (DCF).
- What is the role of the Network Allocation Vector (NAV)?
- Compare the 2.4 GHz, 5 GHz, and 6 GHz Wi-Fi bands.
- Explain channel bonding and its trade-offs in dense deployments.
- How do MIMO and spatial multiplexing increase throughput?
- What is the purpose of OFDMA in Wi-Fi 6?
- Why did infrared-based PANs fail to achieve widespread networking adoption?
- Compare Bluetooth and Zigbee in terms of design goals and network architecture.
- Explain how Angle of Arrival (AoA) and Angle of Departure (AoD) techniques determine the direction of a Bluetooth device.
- Why does AoA require multiple antennas at the receiver?
- Distinguish between Bluetooth 5.1 direction finding and Bluetooth 6 channel sounding.
- Why does UWB achieve superior ranging accuracy compared with BLE RSSI-based positioning?
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